Magnetic tape coating

ABSTRACT

Magnetic tapes are made by applying to a backing film an aqueous dispersion of magnetic particles having dissolved therein cyclic sulfonium zwitterion monomers. Upon removal of the water and/or moderate heating, the monomers polymerize to form a durable matrix having the magnetic particles dispersed therein.

United States Patent Thomas et al.

[451 Aug. 26, 1975 MAGNETIC TAPE COATING Inventors: Mary R. Thomas; Robert H. Lalk;

Syamalarao Evani; Donald L. Schmidt, all of Midland, Mich.

Assignee: The Dow Chemical Company,

Midland, Mich.

Filed: June 17, 1974 Appl. No.: 479,958

US. Cl. 252/6254 Int. Cl H01f 1/11; l-lOlf l/28; l-lOlf 10/00 Field of Search 252/6253, 62.54

References Cited UNITED STATES PATENTS l/l963 Miller et a]. 252/6254 X 3,634,252 l/l972 Graham 252/6254 3,725,285 4/1973 Denk et a]. 252/6254 3,749,739 7/1973 3,804,797 4/1974 3,813,363 5/1974 Schmidt et a] 260/293 Primary ExaminerF. C. Edmundson Attorney, Agent, or FirmChessie E. Rehberg [5 7 ABSTRACT 6 Claims, No Drawings MAGNETIC TAPE COATING BACKGROUND OF THE INVENTION Magnetic recording tapes are widely used in recording sound and electrical signals, as in video recorders, computers and data processing and recording machines and the like. Such tapes typically consist of a thin plastic backing tape coated with a solid plastic matrix in which is embedded finely powdered particles of a magnetizable material. See, for example Schnell, et al., U.S. Pat. No. 3,505,109 and Diaz, U.S. Pat. No. 3,437,510.

A great deal of work has been done in the magnetic tape art to improve the uniformity and density of the magnetic coating. This has largely been directed to using smaller and more uniform magnetic particles and to improving the density and uniformity of their distribution in the plastic matrix or binder layer. Am ther highly desirable objective has been to devise a coating composition that can be applied from an aqueous medium, thus avoiding the problems that arise from the use of organic solvents, such as high cost, toxicity to workers, pollution of the environment, etc.

Hatch, et al., U.S. Pat. Nos. 3,636,052, 3,660,431 and 3,749,737-9 described cyclic sulfonium zwitterionic compounds that readily polymerize to produce solid plastics that are useful as coating materials.

Schmidt, et al., U.S. Pat. No. 3,813,363, describe the use of the Hatch, et al. compounds as coating materials into which various particulate solids, such as silica, silicone oils, iron oxide, alumina, magnesium oxide, barium sulfate, calcium carbonate, titanium dioxide, synthetic rubber and polytetrafluoroethylene, are incorporated and coatings are made therefrom.

Broxterman, et al., U.S. Pat. No. 3,804,797 disclose compositions comprising the above Hatch, et. al., compounds and a water-soluble anionic polymer containing a plurality of carboxyl groups (which later may be in ammonical salt form). Such compositions are useful as coating materials since they maybe prepared in aqueous or organic solvent medium, applied to a substrate, dried to a solid film, and then, if desired, cured to a water-resistant and solvent-resistant coating by a brief, mild heat treatment.

SUMMARY OF THE INVENTION It has now been discovered that improved magnetic tapes can be made by using as binders for the magnetic coating the cyclic sulfonium zwitterion (CSZ) compounds described in the above Hatch, et a1. and Schmidt, et al. patents.

Since one of the technical problems in making magnetic tapes is in achieving a coating material that contains a high density of very finely divided and uniformly dispersed magnetic particles, the efficacy of the dispersing agent is of greatpractical importance. The ammonium salts of polymeric polycarboxylic acids, such as polyacrylic acid, polymethacrylic acid and copolymers of acrylic and methacrylic acids with each other and/or maleic anhydride are particularly effective. They also have the advantageous property of reacting with the CSZ during the curing step, thus losing their surfactant properties and becoming an integral part of the polymer. The acrylic polymers and copolymers are most effective as dispersing agents when of a molecular weight of about 2,0005,000. Also preferred are the similar styrene-maleic anhydride copolymers. Other known dispersants for pigments in aqueous systems can be used provided they do not interact adversely with the CSZ compounds. Broxterman, et al., U.S. Pat. No. 3,804,797 disclose a variety of suitable such dispersants.

A particular feature of the present invention is that the base film or backing to which the magnetic coating is to be applied is preferably first primed with a very thin film of CSZ which is then polymerized (cured) in place. By this means the adhesion of the magnetic coating is greatly improved. While the primer coat can be applied from an aqueous solution of the CSZ monomer, even better results areobtained by use of an organic solvent. Other primers, such as polyurethanes, copolymers of ethylene and acrylic acid, may also be used.

DETAILED DESCRIPTION OF THE INVENTION In practicing the invention, an aqueous dispersion of the magnetic particles containing the dissolved CSZ monomer is applied to the backing, the particles are magnetically oriented, the coated film is dried and the polymerization of the CSZ monomer is completed by a mild heat treatment. The drying and curing may be effected in a single heat treatment, as, for instance, by passing the wet film under a bank of infrared lamps or through a tunnel oven. The temperature attained in the heat treatment is not critical and may be varied widely. The drying may be effected at from room temperature to about 150C, about C. being optimum. While the polymerization proceeds to a large extent concurrently with the drying, it is usually preferred to assure completion by a further heat treatment which can be at the same or a higher temperature, up to that at which the backing film might begin to soften or deform. For most systems 1-5 minutes at 75150C. is suitable.

While the magnetic particles may be any of those known in the art, such as chronium dioxide, zinc ferrous ferrite, etc., iron oxide particles are the most widely used. They should be finely divided, uniformly dispersed in the coating medium, inert to the dispersing agent, binder and backing, and magnetically oriented. Also, their density per unit area on the tape should be as high as possible while the thickness of the coating should be as small as possible consistent with acceptable functional properties. To maximize these opposing desiderata the coating composition should contain the maximum possible proportion of magnetic particles and the minimum proportion of binder that is consonant with the need for sufficient fluidity for application of a uniform layer on the backing and the production of a finished coating that has the requisite smoothness, toughness, flexibility, adherence to the backing and abrasion resistance. This means that the volume ratio of pigment (magnetic particles) to binder (CSZ polymer) should be as high as possible without undue sacrifice of film properties. The CSZ binders of this invention are notable in that they usually function satisfactorily at levels close to the critical pigment volume concentration.

The binder materials that are preferred are those consisting essentially of about 50-80% by weight of monofunctional CSZ compounds, the remainder being polyfunctional CSZ compounds. The latter serve as crosslinkers in the polymerization and yield polymers having supen'or strength, toughness and solvent resiswherein n is 2-3 and the carbon atom valences are satisfied with H, alkyl or other inert substituents and, in the case of the polyfunctional compounds, two or more such moieties are linked together through bridging groups, such as alkylene, O, S, or other linking group attached to the aromatic rings. The production of coatings by use of CSZ monomers is more fully described by Schmidt, et al. in US. Pat. No. 3,813,363, and Broxterman, et al., in US. Pat. No. 3,804,797, the disclosures of which are hereby incorporated by reference.

The desired viscosity of the coating formulation will vary somewhat, depending on the apparatus and technique used in applying the coating. The viscosity can be controlled by adjusting the proportion of water in the formulation and by the type and amount of dispersing agent used.

In practicing the invention, the magnetic particles are dispersed in water with a suitable dispersing agent until thoroughly dispersed. The CSZ compounds are then added in the form of an aqueous solution of concentration such as will provide the desired viscosity in the finished formulation. The mixture may then be mixed for a brief period to assure thorough blending and is then ready for use.

The base to be coated is preferably primed by application of a dilute solution of a CSZ monomer, suitably the same as will be used as the pigment binder, dried, cured, and then coated by any conventional technique with the above formulation, dried and cured as described above.

The primer coat should preferably be very thin. A thickness of about 0.1 to 0.3 micron is usually satisfactory. Such a coat is conveniently obtained by application of a solution of about l3% CSZ monomers in butanol or other inert solvent and then drying the resulting film.

The coating formulation can be applied to the primed base by any conventional techniques, such as by use of a rod coater or a doctor blade. The coated base film is then passed near a magnet to orient the particles, after which the coating is dried and cured as described above.

SPECIFIC EMBODIMENTS OF THE INVENTION A 3-inch tape of polyethylene terephthalate sold under the tradename Mylar was primed by application with a No. 14 Meyer rod of a 2% solution in nbutanol of a CSZ mixture consisting of the following: a. by weight of the compound of the formula CH TH C CH 2 This compound was prepared as described in US. Pat. No. 3,636,052, Example 4-2.

b. 30% by weight of the compound of the formula wherein x had a value of about 1-1. This CSZ was prepared as described in [1.8. Pat. No. 3,749,738, Example 1.

After being dried and cured at 88C. the primer coating was found to be 0.15 microns thick.

The primed tape was then coated with a magnetic coating as follows:

Gamma iron oxide (Pfizer No. 2230), 349 g., was placed in a stainless steel ball mill with 7 g. of the ammonium salt of polyacrylic acid (mol. wt. about 2000-5000) and 213 g. of water and milled for 20 hr. Then a solution of g. of the monofunctional CSZ of the formula (a) shown above and 32 g. of the polyfunctional CSZ of ,the formula (b), above, in 102 g. of water was added and milling was continued for 30 min. The resulting dispersion was applied to the tape with a doctor blade at the rate of 30-40 ft. per min. The coating was oriented by a solenoid magnet, passed through a 40-foot oven at l 10C., and then slit to one-fourth inch width.

The finished tape showed a smooth, durable surface and excellent response in magnetic recording.

What is claimed is:

l. The composition for coating magnetic tapes comprising an aqueous dispersion of magnetic particles having dissolved therein monomeric cyclic sulfonium zwitterions in an amount sufficient, when polymerized,

particles are iron oxide.

5. The composition of claim 1 wherein about 50-80% by weight of the zwitterions are monofunctional, the remainder being polyfunctional.

6. The process of making the composition of claim 1 comprising dispersing the magnetic particles in an aqueous solution of a dispersing agent and then adding an aqueous solution of the zwitterions to the resultant dispersion. 

1. THE COMPOSITION FOR COATING MAGNATIC TAPES COMPRISING AN AQUEOUS DISPERSION OF MAGNETIC PARTICLES HAVING DISSOLVED THEREIN MONOMERIC CYCLIC SULFONIUM ZWITTERIONS IN AN AMOUNT SUFFICIENT, WHEN POLYMERIZED, TO CONSTITUTE A BINDER FOR THE MAGNETIC PARTICLES AND, TOGETHER WITH THE PARTICLES, TO CONSISTUTE A FIRMLY ADHERENT, FLEXIBLE MAGNETIC COATING FOR SAID TAPE.
 2. The composition of claim 1 wherein the dispersion contains as an active dispersing agent the ammonium salt of a polymeric polycarboxylic acid.
 3. The composition of claim 2 wherein the acid is a polymer or copolymer of acrylic, methacrylic or maleic acid of molecular weight about 2,000-5,000.
 4. The composition of claim 1 wherein the magnetic particles are iron oxide.
 5. The composition of claim 1 wherein about 50-80% by weight of the zwitterions are monofunctional, the remainder being polyfunctional.
 6. The process of making the composition of claim 1 comprising dispersing the magnetic particles in an aqueous solution of a dispersing agent and then adding an aqueous solution of the zwitterions to the resultant dispersion. 